CN203750174U - Telescopic-type transformation power device - Google Patents

Abstract

The utility model provides a telescopic-type transformation power device. The telescopic-type transformation power device comprises a main frame, a longitudinal folding mechanism, a lateral telescoping mechanism, an energy accumulation mechanism and a linkage mechanism. By virtue of the structure above, the telescopic-type transformation power device provided by the utility model is capable of realizing integrated deformation and obvious in deformation effect; the telescopic-type transformation power device provided by the utility model is capable of realizing a rectilinear motion by the energy accumulation mechanism and the linkage mechanism.

Description

A kind of telescopic distortion power set

Technical field

The utility model relates to a kind of device of realizing distortion and motion, particularly a kind of telescopic distortion power set.

Background technology

In the prior art, the distressed structure of some toys normally reaches the object of change by dismounting or combination, and deformation process lacks globality, and the process that realizes deformation operation is comparatively barren, and cannot embody deformation effect, similarly is more participating in cutting building blocks game.And only have the distortion of not dismounting of one, could embody to the interest as form deformation toy.Existing form deformation toy, majority focuses in distortion this point, although deformation process has certain attraction, only realizes distortion comparatively dull all the time.

Utility model content

The utility model object is in order to overcome the deficiencies in the prior art, and a kind of telescopic distortion power set are provided, and it can realize integral type distortion, and deformation effect is obvious.

In order to achieve the above object, the utility model is by the following technical solutions:

Telescopic distortion power set, comprise body frame, longitudinal folding mechanism and side direction telescoping mechanism;

Described longitudinal folding mechanism comprises frame and a fore-stock in one, described middle the first side that is hinged on body frame by the first back-moving spring and the first jointed shaft, and described fore-stock is hinged on middle by the second back-moving spring and the second jointed shaft;

Described side direction telescoping mechanism comprises the first wheel hub, the second wheel hub, the first foreign steamer and the second foreign steamer;

Described the first wheel hub is arranged on the second side of body frame, and the lateral wall of described the first wheel hub is provided with at least two the first gathering sills and at least two the first elastic clamping blocks that profile is arc surfaced; Described the first foreign steamer is provided with the first uncovered inner chamber, and the madial wall of described the first uncovered inner chamber is provided with first gib block corresponding with the first gathering sill and the first clip mouth corresponding with the first elastic clamping block; Described the first foreign steamer is set in outside the first wheel hub, movable first gathering sill that embeds of described the first gib block, and described the first elastic clamping block buckles into the first clip mouth;

Described the second wheel hub is arranged on three side contrary with the second side of body frame, and the lateral wall of described the second wheel hub is provided with at least two gathering sills and at least two the second elastic clamping blocks that profile is arc surfaced; Described the second foreign steamer is provided with the second uncovered inner chamber, and the madial wall of described the second uncovered inner chamber is provided with second gib block corresponding with the second gathering sill and the second clip mouth corresponding with the second elastic clamping block; Described the second foreign steamer is set in outside the second wheel hub, movable second gathering sill that embeds of described the second gib block, and described the second elastic clamping block buckles into the second clip mouth;

The edge of the first uncovered inner chamber of described the first foreign steamer is provided with a circle and fastens bar, and the edge of the second uncovered inner chamber of described the second foreign steamer is provided with the buckling groove that a circle is corresponding with fastening bar;

The axis of the first wheel hub, the second wheel hub, the first foreign steamer and the second foreign steamer is parallel to each other.

As preferably, also comprise accumulating mechanism and link gear; Described accumulating mechanism comprises plate, accumulation of energy gear, clockwork spring, fixed axis in wheel hub lid, fixed gear, clutch gear, the first twin-stage gear, wheel hub; In described wheel hub lid, fixed gear, clutch gear, the first twin-stage gear, wheel hub, plate, accumulation of energy gear, clockwork spring, the axis of fixed axis and the axis of the first wheel hub parallel;

Described accumulation of energy gear shaft is to the first trundle that is fixedly installed a bias, and central shaft and its inner that described clockwork spring is set in described accumulation of energy gear are held on described the first trundle; Described the first wheel hub is provided with the three uncovered inner chamber relative with the first uncovered inner chamber, and the madial wall of described the 3rd uncovered inner chamber is provided with draw-in groove; In described clockwork spring, accumulation of energy gear and wheel hub, plate is inserted the 3rd uncovered inner chamber successively, and in described wheel hub, plate is arranged in described the 3rd uncovered inner chamber, and the outer end of described clockwork spring is stuck in described draw-in groove; In described wheel hub, the middle part of plate offers the first through hole, and the middle part of described the first wheel hub offers the first axis hole;

Described wheel hub lid is arranged on the uncovered position of described the 3rd uncovered inner chamber; In the space of described fixed gear, clutch gear, the first twin-stage gear, fixed axis the 3rd uncovered inner chamber between plate in wheel hub lid and wheel hub;

Described fixed gear is fixedly mounted on the first end of fixed axis; The second end of described fixed axis wore central shaft, clockwork spring and first axis hole of the first through hole, accumulation of energy gear, and fastening being arranged on described body frame; Described fixed axis and the first through hole, the first axis hole pine are joined, and join with the central shaft pine of accumulation of energy gear;

The middle part close-fitting of described clutch gear arranges a clutch shaft; In described wheel hub lid and wheel hub, plate arranges respectively a just right wedge groove, and the two ends difference suspension joint of described clutch shaft is in two wedge grooves; Described clutch gear engages with fixed gear;

The first gear hole is also set on plate in described wheel hub, and described the first twin-stage gear is located in described the first gear hole, and the first order gear of described the first twin-stage gear engages with clutch gear, and the second level gear of described the first twin-stage gear engages with accumulation of energy gear;

Described link gear comprises the first travelling gear, the second travelling gear, power transmission shaft, ratchet, ratchet, the first compression spring, by superzapping plate and the gear-driven assembly that drives the second wheel hub to rotate;

The outside at the middle part of described the first wheel hub is fixedly installed the first fixed conveyor gear; Described the first travelling gear and the second travelling gear are fixedly mounted on respectively the two ends of power transmission shaft; Described the first travelling gear engages with the first fixed conveyor gear; Described the second travelling gear and gear-driven assembly are in transmission connection; Described gear-driven assembly is fixedly mounted on the second wheel hub;

On described body frame, be provided with drive axle seat, the middle part of described drive axle seat is set to ratchet inner chamber seat; Described drive shaft cartridge is placed in drive axle seat;

Described ratchet is fixedly mounted on power transmission shaft and is placed in ratchet inner chamber seat, and described ratchet is placed in described ratchet inner chamber seat and engages with ratchet is movable, between the dorsal part of described ratchet and the madial wall of described ratchet inner chamber seat, clamps the first compression spring; On described ratchet, arrange one with ratchet pushing handle in the same way, the described lower pressure side by superzapping plate is perpendicular to the end of pushing handle and contact pushing handle.

As preferably, described the first gathering sill is evenly provided with four, and described the first elastic clamping block is evenly provided with two; Described the second gathering sill is evenly provided with four, and described the second elastic clamping block is evenly provided with two.

As preferably, described clockwork spring outer end is set to cylinder raised line shape, and the vallecular cavity of described draw-in groove is shaped as cylindrical.

As preferably, described gear-driven assembly comprises the second twin-stage gear, the second trundle, the second compression spring, lockpin sleeve, wheel shaft; Described the second twin-stage gear, the axis of wheel shaft and the axis of the second wheel hub parallel;

Described the second wheel hub is provided with the four uncovered inner chamber relative with the second uncovered inner chamber;

The center of described the second wheel hub is provided with the second gear hole, and described the second twin-stage gear is located in the second gear hole, and described wheel shaft activity wears the center of the second twin-stage gear and is fixed on described body frame; The first order gear of described the second twin-stage gear engages with described the second travelling gear; Described lockpin sleeve is fixedly mounted on the 4th uncovered inner chamber of described the second wheel hub, described the second trundle is arranged in lockpin sleeve, on described the second trundle, be set with the second compression spring, one end of described the second trundle is stuck in the second level gear of described the second twin-stage gear.

As preferably, the outside of described the first foreign steamer and the second foreign steamer is all provided with wheel skin.

As preferably, described side arm is provided with wheel.

As preferably, set up the 5th uncovered inner chamber being equipped with for putting fore-stock in described, described body frame be provided with for put fore-stock and the 6th uncovered inner chamber.

As preferably, on described fore-stock, be provided with pouring weight.

As preferably, the madial wall of described the 3rd uncovered inner chamber is evenly closely provided with a circle draw-in groove, and described draw-in groove is provided with some.

Compared with prior art, the utlity model has following beneficial effect:

By said structure, the utility model can be realized integral type distortion, and deformation effect is obvious; The utility model can be realized rectilinear motion by accumulating mechanism and link gear.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model;

Fig. 2 is distressed structure schematic diagram of the present utility model;

Fig. 3 is explosive view of the present utility model;

Fig. 4 is partial structurtes schematic diagram a of the present utility model;

Fig. 6 is partial structurtes schematic diagram b of the present utility model;

Fig. 7 is partial structurtes schematic diagram c of the present utility model;

Fig. 8 is partial structurtes schematic diagram d of the present utility model;

Fig. 9 is partial structurtes explosive view a of the present utility model;

Figure 10 is partial structurtes explosive view b of the present utility model;

Figure 11 is partial structurtes schematic diagram e of the present utility model.

In figure:

1-body frame; 11-drive axle seat; 12-ratchet inner chamber seat; 21-middle frame; 22-fore-stock; The 23-the first back-moving spring; The 24-the first jointed shaft; The 25-the second back-moving spring; 26-wheel; The 31-the first wheel hub; 311-wheel hub lid; Plate in 312-wheel hub; The 313-the first elastic clamping block; The 314-the first gathering sill; 315-draw-in groove; The 316-the first fixed conveyor gear; The 32-the first foreign steamer; The 321-the first gib block; The 322-the first clip mouth; 33-fixed gear; 34-clutch gear; 341-clutch shaft; The 35-the first twin-stage gear; 36-accumulation of energy gear; The 361-the first trundle; 37-clockwork spring; 38-fixed axis; The 41-the second wheel hub; The 42-the second foreign steamer; The 43-the second twin-stage gear; 44-lockpin sleeve; The 45-the second compression spring; The 46-the second trundle; 47-wheel shaft; The 51-the first travelling gear; The 52-the second travelling gear; 53-power transmission shaft; 54-ratchet; 55-ratchet; The 56-the first compression spring; 57-by superzapping plate; 6-wheel skin.

Now the utility model is described in further detail with specific embodiment by reference to the accompanying drawings.

Detailed description of the invention

As shown in Figure 1 to 11, for a kind of telescopic distortion power set described in the utility model, wherein jointly illustrate with the embodiment shown in the embodiment shown in Fig. 1 to Fig. 3 and Fig. 4 to Figure 11 respectively.Telescopic distortion power set described in the utility model mainly comprise body frame 1, longitudinal folding mechanism, side direction telescoping mechanism, accumulating mechanism and link gear.

Longitudinal folding mechanism comprises frame 21 and a fore-stock 22 in one, and middle 21 is hinged on the first side of body frame 1 by the first back-moving spring 23 and the first jointed shaft 24, and fore-stock 22 is hinged on middle 21 by the second back-moving spring 25 and the second jointed shaft; Body frame 1, middle 21 and fore-stock 22 are in same direction.Be provided with the 5th uncovered inner chamber for putting fore-stock 22 for middle 21, fore-stock 22 is to middle 21 folding the 5th uncovered inner chamber of then taking in; Body frame 1 is provided with the 6th uncovered inner chamber for putting fore-stock 22 and 21, and middle 21 to folding the 6th uncovered inner chamber of then taking in of body frame 1.Fore-stock 22 is provided with wheel 26 and the pouring weight that adds stiff stability is installed.

Side direction telescoping mechanism comprises the first wheel hub 31, the second wheel hub 41, the first foreign steamer 32 and the second foreign steamer 42.

The first wheel hub 31 is arranged on the second side of body frame 1, and the lateral wall of the first wheel hub 31 is evenly provided with four the first gathering sills 314 and two the first elastic clamping blocks 313 that profile is arc surfaced; The first foreign steamer 32 is provided with the first uncovered inner chamber, and the madial wall of the first uncovered inner chamber is provided with first gib block 321 corresponding with the first gathering sill 314 and the first clip mouth 322 corresponding with the first elastic clamping block 313; The first foreign steamer 32 is set in outside the first wheel hub 31, and movable first gathering sill 314, the first elastic clamping blocks 313 that embed of the first gib block 321 buckle into the first clip mouth 322.

The second wheel hub 41 is arranged on three side contrary with the second side of body frame 1, and the lateral wall of the second wheel hub 41 is evenly provided with four gathering sills and two the second elastic clamping blocks that profile is arc surfaced; The second foreign steamer 42 is provided with the second uncovered inner chamber, and the madial wall of the second uncovered inner chamber is provided with second gib block corresponding with the second gathering sill and the second clip mouth corresponding with the second elastic clamping block; The second foreign steamer 42 is set in outside the second wheel hub 41, movable second gathering sill that embeds of the second gib block, and the second elastic clamping block buckles into the second clip mouth.

The edge of the first uncovered inner chamber of the first foreign steamer 32 is provided with a circle fasten bar, it is corresponding with fastening bar that the edge of the second uncovered inner chamber of the second foreign steamer 42 is provided with a circle buckling groove.When the first foreign steamer 32 and the second foreign steamer 42 are in opposite directions when being merged, fasten bar and buckling groove fastening.

The axis of the first wheel hub 31, the second wheel hub 41, the first foreign steamer 32 and the second foreign steamer 42 4 is parallel to each other.

The first wheel hub 31 is identical with shape, the structure of the second wheel hub 41, and the elastic clamping block that both have and gathering sill shape, structure and function are identical; The first foreign steamer 32 is identical with shape, the structure of the second foreign steamer 42, and clip mouth and gib block shape, structure and function that both have are identical.

Accumulating mechanism comprises plate 312, accumulation of energy gear 36, clockwork spring 37, fixed axis 38 in wheel hub lid 311, fixed gear 33, clutch gear, the first twin-stage gear 35, wheel hub; In wheel hub lid 311, fixed gear 33, clutch gear, the first twin-stage gear 35, wheel hub, plate 312, accumulation of energy gear 36, clockwork spring 37, the axis of fixed axis 38 and the axis of the first wheel hub 31 parallel.

Accumulation of energy gear 36 axial restraints arrange the first trundle 361 of a bias, and central shaft and its inner that clockwork spring 37 is set in accumulation of energy gear 36 are held on the first trundle 361; The first wheel hub 31 is provided with the three uncovered inner chamber relative with the first uncovered inner chamber, and it is columniform draw-in groove 315 that the madial wall of the 3rd uncovered inner chamber is evenly closely provided with a ring recess cavity shape, and described draw-in groove 315 is provided with some; In clockwork spring 37, accumulation of energy gear 36 and wheel hub, plate 312 is inserted the 3rd uncovered inner chamber successively, and in wheel hub, plate 312 is arranged in the 3rd uncovered inner chamber, and the outer end of clockwork spring 37 is cylinder raised line shape and is stuck in draw-in groove 315; In wheel hub, the middle part of plate 312 offers the first through hole, and the middle part of the first wheel hub 31 offers the first axis hole.

Wheel hub lid 311 is arranged on the uncovered position of the 3rd uncovered inner chamber; In the space of fixed gear 33, clutch gear, the first twin-stage gear 35, fixed axis 38 the 3rd uncovered inner chamber between plate 312 in wheel hub lid 311 and wheel hub.

Fixed gear 33 is fixedly mounted on the first end of fixed axis 38; The second end of fixed axis 38 wore central shaft, clockwork spring 37 and first axis hole of the first through hole, accumulation of energy gear 36, and fastening being arranged on body frame 1; Fixed axis 38 and the first through hole, the first axis hole pine are joined, and join (joining with the axially extending bore pine of the central shaft of accumulation of energy gear 36) with the central shaft pine of accumulation of energy gear 36.

The middle part close-fitting of clutch gear arranges a clutch shaft 341; In wheel hub lid 311 and wheel hub, plate 312 arranges respectively a just right wedge groove, and the two ends difference suspension joint of clutch shaft 341 is in two wedge grooves; Clutch gear engages with fixed gear 33.

The first gear hole is also set on plate 312 in wheel hub, and the first twin-stage gear 35 is located in the first gear hole, and the first order gear of the first twin-stage gear 35 engages with clutch gear, and the second level gear of the first twin-stage gear 35 engages with accumulation of energy gear 36.

Link gear comprises the first travelling gear 51, the second travelling gear 52, power transmission shaft 53, ratchet 54, ratchet 55, the first compression spring 56, by superzapping plate 57 and the gear-driven assembly that drives the second wheel hub 41 to rotate.Gear-driven assembly comprises the second twin-stage gear 43, the second trundle 46, the second compression spring 45, lockpin sleeve 44, wheel shaft 47; The axis of the second twin-stage gear 43, wheel shaft 47 and the axis of the second wheel hub 41 parallel.

The outside at the middle part of the first wheel hub 31 is fixedly installed the first fixed conveyor gear 316; The first travelling gear 51 and the second travelling gear 52 are fixedly mounted on respectively the two ends of power transmission shaft 53; The first travelling gear 51 engages with the first fixed conveyor gear 316.

On body frame 1, be provided with drive axle seat 11, the middle part of drive axle seat 11 is set to ratchet 54 inner chamber seats 12; Power transmission shaft 53 is installed in drive axle seat 11.

Ratchet 54 is fixedly mounted on power transmission shaft 53 and is placed in ratchet 54 inner chamber seats 12, and ratchet 55 is placed in ratchet 54 inner chamber seats 12 and engages with ratchet 54 is movable, between the dorsal part of ratchet 55 and the madial wall of ratchet 54 inner chamber seats 12, clamps the first compression spring 56; On ratchet 55, arrange one with ratchet 55 pushing handle in the same way, the end by the lower pressure side of superzapping plate 57 perpendicular to pushing handle and contact pushing handle.

The second wheel hub 41 is provided with the four uncovered inner chamber relative with the second uncovered inner chamber.

The second wheel hub 41 center is provided with the second gear hole, and the second twin-stage gear 43 is located in the second gear hole, and wheel shaft 47 activities wear the second twin-stage gear 43 center and are fixed on body frame 1; The first order gear of the second twin-stage gear 43 engages with the second travelling gear 52; Lockpin sleeve 44 is fixedly mounted in the 4th uncovered inner chamber of the second wheel hub 41, is set with the second compression spring 45 and is arranged in lockpin sleeve 44 on the second trundle 46, and one end of the second trundle 46 is stuck in the second level gear of the second twin-stage gear 43.

The outside of the first foreign steamer 32 and the second foreign steamer 42 is all provided with wheel skin 6.

Application principle of the present utility model:

Longitudinal folding mechanism and side direction telescoping mechanism are as deformation mechanism of the present utility model, and concrete operations and principle are as follows:

The utility model as the deployed condition of Fig. 1 be normality.In the time the utility model need being out of shape:

First by fore-stock to middle folding, in fore-stock income in the 5th uncovered inner chamber of frame; Then fore-stock and middle entirety are folded and taken in the 6th uncovered inner chamber of body frame to body frame.The first order of the present utility model has been out of shape.

Then by close in opposite directions to the first foreign steamer and the second foreign steamer, now, the first elastic clamping block and the second elastic clamping block can exit from the first clip mouth and the second clip mouth respectively, and the first foreign steamer moves on the gathering sill of corresponding wheel hub by gib block separately respectively with the second foreign steamer; Finally, the first foreign steamer and the second foreign steamer fasten mutually, thereby complete the second level of the present utility model distortion.The fore-stock of folding income body frame and middle be collected in the lump the first foreign steamer and fasten with the second foreign steamer after in the space of formation.

Finally become state as shown in Figure 2.

In the time need to becoming the deployed condition of Fig. 1 again from the state of Fig. 2, first the first foreign steamer and the second foreign steamer are oppositely pulled open, until the first elastic clamping block and the second elastic clamping block buckle into respectively the first clip mouth and the second clip mouth; Now, middle can reset with fore-stock under the effect of the first back-moving spring and the second back-moving spring.Whole utility model is recovered the shape of Fig. 1.

Accumulating mechanism and link gear are actuating unit of the present utility model, and concrete operations and principle are as follows:

Under the state of Fig. 1, external force is rotated the first foreign steamer, and the first wheel hub rotates thereupon, thereby drives plate and the rotation of wheel hub lid in wheel hub.In wheel hub, the rotation of plate and wheel hub lid drives the rotation of clutch gear and the revolution around fixed gear, under the drive of clutch gear, the first twin-stage gear rotates and orders about accumulation of energy gear and rotates, and because accumulation of energy gear rotates, clockwork spring tightens up under the drive of the first trundle.Meanwhile, the first fixed conveyor gear on the first foreign steamer, give the first travelling gear 51, the second travelling gear by power transmission, the second travelling gear drives the second twin-stage gear to rotate, because the second trundle is stuck in the second twin-stage gear and lockpin sleeve is fixedly mounted on the second wheel hub, thereby drive the second wheel hub to rotate, further drive the second foreign steamer to rotate.Above-mentioned is accumulation of energy process.

When clockwork spring tightens, External Force Acting disappears, clockwork spring discharges potential energy and externally does work.Now: clockwork spring discharges potential energy reversion, thereby by the first trundle, reversion active force is driven to accumulation of energy gear, the reversion of accumulation of energy gear drives the first twin-stage gear reversion, thereby indirectly drive clutch gear rotation and revolution, under the rotation of clutch gear is led, the first wheel hub reversion, thereby the first foreign steamer reversion.Simultaneously, the potential energy that clockwork spring discharges is passed to the second wheel hub by link gear, but due to ratchet being installed on power transmission shaft, causes the first wheel hub and the first foreign steamer cannot be as such rotation, and second wheel hub and the second foreign steamer also cannot obtain transmission, now need by by superzapping plate sort this problem out.To depress to the pushing handle of ratchet by superzapping plate, pushing handle can be promoted to the direction of the first compression spring by the lower pressure side of superzapping plate, thereby promote whole ratchet, now ratchet no longer engages with ratchet, be that ratchet is unrestricted rotatable, thereby make link gear realize the transmission of power.Link gear is realized power transmission, i.e. power transmission to the second travelling gear of the first travelling gear 51, the second travelling gear drives the second twin-stage gear to rotate, thereby the second twin-stage gear drives the second trundle indirectly to drive whole the second wheel hub and the second foreign steamer to rotate as previously mentioned.

After clockwork spring discharges potential energy reversion, clutch gear separates with fixed gear at once, makes whole device keep inertia to continue to roll forward, until stop.

The effect of the utility model part-structure:

On fore-stock, being provided with pouring weight, is in order to ensure after fore-stock, middle expansion, integrally-built stable.

The second trundle is provided with the second compression spring, prevents from that the second foreign steamer is stuck to cause the impaired problem of gear in device to occur.

The first compression spring, ensures that ratchet and pawl operationalizes more smooth and easy.

Wheel skin is housed on foreign steamer, improves the sliding performance of whole device.

On fore-stock, be equiped with wheel, when whole device slides, can be more stable.

Clockwork spring outer end is cylinder raised line shape, can realize antioverloading by the outer end of cylinder raised line shape, can control antioverloading amount by the size of controlling raised line shape.And can play and increase the effect of falling resistance of turning round in clockwork spring accumulation of energy process, in the time that clockwork spring discharges potential energy, can play the effect of speedup increasing journey.

The utility model is not limited to above-mentioned embodiment, if various changes of the present utility model or modification are not departed to spirit and scope of the present utility model, if within these changes and modification belong to claim of the present utility model and equivalent technologies scope, the utility model is also intended to comprise these changes and variation.

Claims (10)

1. telescopic distortion power set, is characterized in that, comprise body frame, longitudinal folding mechanism and side direction telescoping mechanism;

Described longitudinal folding mechanism comprises frame and a fore-stock in one, described middle the first side that is hinged on body frame by the first back-moving spring and the first jointed shaft, and described fore-stock is hinged on middle by the second back-moving spring and the second jointed shaft;

Described side direction telescoping mechanism comprises the first wheel hub, the second wheel hub, the first foreign steamer and the second foreign steamer;

Described the first wheel hub is arranged on the second side of body frame, and the lateral wall of described the first wheel hub is provided with at least two the first gathering sills and at least two the first elastic clamping blocks that profile is arc surfaced; Described the first foreign steamer is provided with the first uncovered inner chamber, and the madial wall of described the first uncovered inner chamber is provided with first gib block corresponding with the first gathering sill and the first clip mouth corresponding with the first elastic clamping block; Described the first foreign steamer is set in outside the first wheel hub, movable first gathering sill that embeds of described the first gib block, and described the first elastic clamping block buckles into the first clip mouth;

Described the second wheel hub is arranged on three side contrary with the second side of body frame, and the lateral wall of described the second wheel hub is provided with at least two gathering sills and at least two the second elastic clamping blocks that profile is arc surfaced; Described the second foreign steamer is provided with the second uncovered inner chamber, and the madial wall of described the second uncovered inner chamber is provided with second gib block corresponding with the second gathering sill and the second clip mouth corresponding with the second elastic clamping block; Described the second foreign steamer is set in outside the second wheel hub, movable second gathering sill that embeds of described the second gib block, and described the second elastic clamping block buckles into the second clip mouth;

The edge of the first uncovered inner chamber of described the first foreign steamer is provided with a circle and fastens bar, and the edge of the second uncovered inner chamber of described the second foreign steamer is provided with the buckling groove that a circle is corresponding with fastening bar;

The axis of the first wheel hub, the second wheel hub, the first foreign steamer and the second foreign steamer is parallel to each other.

2. telescopic distortion power set according to claim 1, is characterized in that, also comprise accumulating mechanism and link gear; Described accumulating mechanism comprises plate, accumulation of energy gear, clockwork spring, fixed axis in wheel hub lid, fixed gear, clutch gear, the first twin-stage gear, wheel hub; In described wheel hub lid, fixed gear, clutch gear, the first twin-stage gear, wheel hub, plate, accumulation of energy gear, clockwork spring, the axis of fixed axis and the axis of the first wheel hub parallel;

Described accumulation of energy gear shaft is to the first trundle that is fixedly installed a bias, and central shaft and its inner that described clockwork spring is set in described accumulation of energy gear are held on described the first trundle; Described the first wheel hub is provided with the three uncovered inner chamber relative with the first uncovered inner chamber, and the madial wall of described the 3rd uncovered inner chamber is provided with draw-in groove; In described clockwork spring, accumulation of energy gear and wheel hub, plate is inserted the 3rd uncovered inner chamber successively, and in described wheel hub, plate is arranged in described the 3rd uncovered inner chamber, and the outer end of described clockwork spring is stuck in described draw-in groove; In described wheel hub, the middle part of plate offers the first through hole, and the middle part of described the first wheel hub offers the first axis hole;

Described wheel hub lid is arranged on the uncovered position of described the 3rd uncovered inner chamber; In the space of described fixed gear, clutch gear, the first twin-stage gear, fixed axis the 3rd uncovered inner chamber between plate in wheel hub lid and wheel hub;

Described fixed gear is fixedly mounted on the first end of fixed axis; The second end of described fixed axis wore central shaft, clockwork spring and first axis hole of the first through hole, accumulation of energy gear, and fastening being arranged on described body frame; Described fixed axis and the first through hole, the first axis hole pine are joined, and join with the central shaft pine of accumulation of energy gear;

The middle part close-fitting of described clutch gear arranges a clutch shaft; In described wheel hub lid and wheel hub, plate arranges respectively a just right wedge groove, and the two ends difference suspension joint of described clutch shaft is in two wedge grooves; Described clutch gear engages with fixed gear;

The first gear hole is also set on plate in described wheel hub, and described the first twin-stage gear is located in described the first gear hole, and the first order gear of described the first twin-stage gear engages with clutch gear, and the second level gear of described the first twin-stage gear engages with accumulation of energy gear;

Described link gear comprises the first travelling gear, the second travelling gear, power transmission shaft, ratchet, ratchet, the first compression spring, by superzapping plate and the gear-driven assembly that drives the second wheel hub to rotate;

The outside at the middle part of described the first wheel hub is fixedly installed the first fixed conveyor gear; Described the first travelling gear and the second travelling gear are fixedly mounted on respectively the two ends of power transmission shaft; Described the first travelling gear engages with the first fixed conveyor gear; Described the second travelling gear and gear-driven assembly are in transmission connection; Described gear-driven assembly is fixedly mounted on the second wheel hub;

On described body frame, be provided with drive axle seat, the middle part of described drive axle seat is set to ratchet inner chamber seat; Described drive shaft cartridge is placed in drive axle seat;

Described ratchet is fixedly mounted on power transmission shaft and is placed in ratchet inner chamber seat, and described ratchet is placed in described ratchet inner chamber seat and engages with ratchet is movable, between the dorsal part of described ratchet and the madial wall of described ratchet inner chamber seat, clamps the first compression spring; On described ratchet, arrange one with ratchet pushing handle in the same way, the described lower pressure side by superzapping plate is perpendicular to the end of pushing handle and contact pushing handle.

3. telescopic distortion power set according to claim 2, is characterized in that, described the first gathering sill is evenly provided with four, and described the first elastic clamping block is evenly provided with two; Described the second gathering sill is evenly provided with four, and described the second elastic clamping block is evenly provided with two.

4. telescopic distortion power set according to claim 2, is characterized in that, described clockwork spring outer end is set to cylinder raised line shape, and the vallecular cavity of described draw-in groove is shaped as cylindrical.

5. according to the telescopic distortion power set described in claim 2 or 4, it is characterized in that, described gear-driven assembly comprises the second twin-stage gear, the second trundle, the second compression spring, lockpin sleeve, wheel shaft; Described the second twin-stage gear, the axis of wheel shaft and the axis of the second wheel hub parallel;

Described the second wheel hub is provided with the four uncovered inner chamber relative with the second uncovered inner chamber;

The center of described the second wheel hub is provided with the second gear hole, and described the second twin-stage gear is located in the second gear hole, and described wheel shaft activity wears the center of the second twin-stage gear and is fixed on described body frame; The first order gear of described the second twin-stage gear engages with described the second travelling gear; Described lockpin sleeve is fixedly mounted on the 4th uncovered inner chamber of described the second wheel hub, described the second trundle is arranged in lockpin sleeve, on described the second trundle, be set with the second compression spring, one end of described the second trundle is stuck in the second level gear of described the second twin-stage gear.

6. telescopic distortion power set according to claim 1, is characterized in that, the outside of described the first foreign steamer and the second foreign steamer is all provided with wheel skin.

7. telescopic distortion power set according to claim 1, is characterized in that, described side arm is provided with wheel.

8. telescopic distortion power set according to claim 1, is characterized in that, set up the 5th uncovered inner chamber being equipped with for putting fore-stock in described, described body frame be provided with for put fore-stock and the 6th uncovered inner chamber.

9. telescopic distortion power set according to claim 1, is characterized in that, on described fore-stock, are provided with pouring weight.

10. telescopic distortion power set according to claim 1, is characterized in that, the madial wall of described the 3rd uncovered inner chamber is evenly closely provided with a circle draw-in groove, and described draw-in groove is provided with some.